CN204903854U - Prism refraction formula cell -phone camera lens - Google Patents

Abstract

The utility model discloses a prism refraction formula cell -phone camera lens, include the camera lens support body and set up at the internal photosensitive element of lens bracket, each slope of both sides of camera lens support body be provided with a refraction prism, two refraction prisms top all horizontal level be provided with one and go into the light microscopic piece, the photosensitive element have two, two photosensitive elements are forked tail form tilting fixed in the middle part of camera lens support body, two photosensitive elements and two refraction prisms between still each vertically is equipped with convex lens, the utility model discloses a refraction imaging system that two sets of symmetries set up deflects vertical light path for horizontal, and then reduces the thickness of camera, makes the cell -phone thinner more pleasing to the eye.

Description

A kind of prism refraction formula mobile phone camera lens

Technical field

The utility model relates to prism refraction formula mobile phone camera lens.

Background technology

In prior art mobile phone pick-up lens be generally stacking-type, this lens wearer composition is simple, imaging clearly, but thickness is partially thick, under the development trend that mobile phone is more and more thinner, the thickness of pick-up lens becomes the difficult problem hindering mobile phone to frivolous future development gradually.

Utility model content

The utility model object is to overcome above-mentioned the deficiencies in the prior art, provides a kind of more frivolous mobile phone camera lens.

The technical solution of the utility model is: a kind of prism refraction formula mobile phone camera lens, comprise camera lens support body and be arranged on the photo-sensitive cell in camera lens support body, the both sides of described camera lens support body are respectively tiltedly installed with one piece of refractive power prism, above two pieces of described refractive power prisms, all transverse horizontal is provided with one piece of light inlet eyeglass, described photo-sensitive cell has two, two photo-sensitive cells are the middle part that dovetail shaped tilts to be fixed on camera lens support body, and between two described photo-sensitive cells and two pieces of refractive power prisms, also each longitudinal direction is provided with one piece of convex lens.

Two described refractive power prisms all tilt to the outside of camera lens support body, and the angle α that the bottom of refractive power prism and camera lens support body is formed is 45 °.

The angle of inclination of two described photo-sensitive cells is identical with the refractive power prism of homonymy respectively with vergence direction.

The convex surface of two pieces of described convex lens is respectively towards the refractive power prism of homonymy.

The beneficial effects of the utility model are: the utility model adopts two groups of symmetrically arranged refracted image systems, be laterally longitudinal optical path-deflecting, make traditional stacking-type lens assembly can be laid in photo-sensitive cell both sides, and then reduce the thickness of camera, make mobile phone thinner more attractive in appearance.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Embodiment

Below by embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.

As shown in Figure 1, a kind of prism refraction formula mobile phone camera lens, the photo-sensitive cell 2 comprising camera lens support body 1 and be arranged in camera lens support body 1, the both sides of described camera lens support body 1 are respectively tiltedly installed with one piece of refractive power prism 3, above two pieces of described refractive power prisms 3, all transverse horizontal is provided with one piece of light inlet eyeglass 4, described photo-sensitive cell 2 has two, two photo-sensitive cells 2 tilt to be fixed on the middle part of camera lens support body 1 in dovetail shaped, between described two photo-sensitive cells 2 and two pieces of refractive power prisms 3, also each longitudinal direction is provided with one piece of convex lens 5, two described refractive power prisms 3 all tilt to the outside of camera lens support body 1, the angle α that refractive power prism 3 is formed with 1 bottom of camera lens support body is 45 °, the angle of inclination of two described photo-sensitive cells 2 is identical with the refractive power prism 3 of homonymy respectively with vergence direction, the convex surface of two pieces of described convex lens 5 is respectively towards the refractive power prism 3 of homonymy.

During work, light enters in camera lens support body through two pieces of light inlet eyeglasses respectively, and is reflected to the convex lens with focal imaging effect, finally by two photo-sensitive cell photosensitive imagings by refractive power prism.

Claims (4)

1. a prism refraction formula mobile phone camera lens, comprise camera lens support body and be arranged on the photo-sensitive cell in camera lens support body, it is characterized in that: the both sides of described camera lens support body are respectively tiltedly installed with one piece of refractive power prism, above two pieces of described refractive power prisms, all transverse horizontal is provided with one piece of light inlet eyeglass, described photo-sensitive cell has two, two photo-sensitive cells are the middle part that dovetail shaped tilts to be fixed on camera lens support body, and between two described photo-sensitive cells and two pieces of refractive power prisms, also each longitudinal direction is provided with one piece of convex lens.

2. a kind of prism refraction formula mobile phone camera lens according to claim 1, is characterized in that: two described refractive power prisms all tilt to the outside of camera lens support body, the angle α that the bottom of refractive power prism and camera lens support body is formed is 45 °.

3. a kind of prism refraction formula mobile phone camera lens according to claim 1, is characterized in that: the angle of inclination of two described photo-sensitive cells is identical with the refractive power prism of homonymy respectively with vergence direction.

4. a kind of prism refraction formula mobile phone camera lens according to claim 1, is characterized in that: the convex surface of two pieces of described convex lens is respectively towards the refractive power prism of homonymy.